This publication characterizes the environmental burden of disease in the United Arab Emirates (UAE), measured by the excess number of deaths and illnesses in the population due to exposure to environmental hazards. The robust methods used in this risk analysis can be applied to any country or region. This publication documents the systematic, multi-step process used to identify environmental priorities and the detailed methods used to quantify the disease burden attributable to each risk. Based on the results of the burden of disease assessment, the publication summarizes the subsequent steps that are recommended to further reduce the burden of disease resulting from various environmental risk factors. Authors and Contributors This book represents the synthesis of research carried out by a large, interdisciplinary team from several institutions and multiple nations between June 2008 and June 2011.The lead authors are responsible for weaving together the pieces prepared by the team.Nonetheless, this book would not have been possible without major contributions from each team member.The list below shows contributors to each chapter.Following this list are biographies of all of the authors and contributors. Lead Authors Jacqueline MacDonald Gibson, Frederic J. P. Launay, Jens T. W. Thomsen, Angela Brammer, Christopher Davidson Additional Contributors (by Chapter) Chapter 2: Prioritizing Environmental Risks to Health Henry H. Willis, Aimee Curtright, Gary Cecchine, Zeinab S. Farah,Sandra A. Geschwind, Jianhui Hu, Ying Li, Melinda Moore, Sarah Olmstead, Hanine Salem, Regina A. Shih, J. Jason West Chapter 3: Assessing the Environmental Burden of Disease:Method Overview Tiina Folley, Elizabeth S. Harder, Mejs Hasan Chapter 4: Burden of Disease from Outdoor Air Pollution Ying Li, Gavino Puggioni, Prahlad Jat, Mejs Hasan, Marc Serre, Kenneth G. Sexton, J. Jason West, Saravanan Arunachalam, Uma Shankar, William Vizuete, Mohammed Zuber Farooqui Chapter 5: Burden of Disease from Indoor Air Pollution Chris B. Trent Chapter 6: Burden of Disease from Occupational Exposures Tiina Folley, Leena A. Nylander-French Chapter 7: Burden of Disease from Climate Change Richard N. L. Andrews, Leslie Chinery, Elizabeth S. Harder, J. Jason West Chapter 8: Burden of Disease from Drinking Water Contamination Gregory W. Characklis, Joseph N. LoBuglio Chapter 9: Burden of Disease from Coastal Water Pollution Gregory W. Characklis, Leigh-Anne H. Krometis, Joseph N. LoBuglio Chapter 10: Burden of Disease from Soil and Groundwater Contamination Chidsanuphong Chart-asa, Stephanie Soucheray-Grell Chapter 11: Burden of Disease from Produce and Seafood Contamination Leigh-Anne H. Krometis, Leslie Chinery

This Brief examines the impact of the Oxford Transport Strategy in central Oxford as a means of assessing the effect of reduced traffic congestion in the city centre on its sustainability. Air pollution (from vehicular traffic) has been monitored at three locations in central Oxford on the High Street, St Aldates and St Ebbes (background monitoring station). There is a further monitoring site situated in East Oxford, but this one is not considered to be central. Based on long-term monitoring at these monitoring stations, a deliberation of urban sustainability is presented. Implications are considered for long-term planning and green design in particular is part of the discussion. More specifically, urban greening strategies are presented as (soft engineering) approaches to controlling air pollution problems at this urban location. In the context of low carbon cities, green walls are assessed as they affect urban greening and energy conservation, as they enhance insulation on the exterior of solid wall buildings. Urban sustainability is best monitored using decades of data rather than just years. The Oxford Transport Strategy (OTS) was implemented in central Oxford, UK in 2001 and now a record of at least a decade of monitoring data is available for such a longer-term assessment. This work revisits the OTS from long after its implementation in the Oxford city centre and specifically examines the impact of reduced traffic congestion on sustainability. This includes address of traffic congestion, air pollution (from vehicular or traffic pollution) and the effects on the urban environment, including buildings. In parallel to this, the role of urban vegetation is considered as a sink for a variety of pollutants. Green walls, as part of urban greening, have implications for low carbon cities in the context of urban heat islands and global warming.

Current radiation protection standards are based upon the application of the linear no-threshold (LNT) assumption, which considers that even very low doses of ionizing radiation can cause cancer. The radiation hormesis hypothesis, by contrast, proposes that low-dose ionizing radiation is beneficial. In this book, the author examines all facets of radiation hormesis in detail, including the history of the concept and mechanisms, and presents comprehensive, up-to-date reviews for major cancer types. It is explained how low-dose radiation can in fact decrease all-cause and all-cancer mortality and help to control metastatic cancer. Attention is also drawn to biases in epidemiological research when using the LNT assumption. The author shows how proponents of the LNT assumption consistently reject, manipulate, and deliberately ignore an overwhelming abundance of published data and falsely claim that no reliable data are available at doses of less than 100 mSv.

Environmental chemistry is a fast developing science aimed at deciphering fundamental mechanisms ruling the behaviour of pollutants in ecosystems. Applying this knowledge to current environmental issues leads to the remediation of environmental media, and to new, low energy, low emission, sustainable processes. Nanotechnology applications for alternative energies such as solar power, fuel cells, hydrogen and lithium batteries are reviewed in the first section. Recent investigations on carbon nanotubes, nanocatalysts and cyclodextrins disclose unprecedented techniques to monitor and clean pollutants such as greenhouse gases, heavy metals, pesticides, pathogens occurring in water, air and soil. The second section reviews the risks for human health of critical pollutants such as endocrine disruptors, dioxins and heavy metals contaminating seafood and sediments. An exhaustive review of DDT isomers reveals unexpected mechanisms of DDT transfer to fishes. A chapter on pollutant geochronology using river sedimentary archives provides novel insights on pollution history since the beginning of the anthropocene.

This book will be a valuable source of information for engineers and students developing novel applied techniques to monitor and clean pollutants in air, wastewater, soils and sediments.

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This book includes a collection of chapters illustrating the application of geochemical methods to investigate the interactions between geological materials and fluids with humans. Examples include the incorporation and human health effects of inhaling lithogenic materials, the reactivity of biological fluids with geological materials, and the impact on nascent biomineral formation. Biomineralization is investigated in terms of mineralogy, morphology, bone chemistry, and pathological significance with a focus on the health impacts of "foreign" geological/environmental trace element incorporation. One of the contribution is devoted to particulate matter, the presence of metals and metalloids in the environment, and the possibility of using human hair as a biomarker between environmental/geological exposure and human bioincorporation. Other chapters focus on the last advances on the analytical methods and instrumentational approaches to investigating the chemistry of biological fluids and tissues.

Due to their unparalleled effectiveness and efficiency, polyfluorinated chemicals (PFC") "have become essential in numerous technical applications. However, many PFCs brought to market show limited biodegradability, and their environmental persistence combined with toxic and bioaccumulative potential have become a matter of concern in some instances. This volume highlights the synthesis of PFCs, focusing on substances with improved application and environmental properties, which are a challenge for synthetic chemists. Further, modern mass spectrometric techniques for the detection and identification of biotransformation products of PFCs are described. The sorption and leaching behavior of PFC in soil is also addressed in order to predict their fate in the environment. Several contributions discuss the monitoring of PFCs in European surface, ground and drinking waters, treatment options for PFC removal from drinking water, occurrence in food, and the human biomonitoring of PFCs.

The field of endocrine disruption or endocrine active compounds (EACs), which is just emerging and still controversial, is comprehensively covered by leading experts in Volume 3, Subvolumes L (the present volume, Part I) and M (Part II). The major classes of endocrine active chemicals are discussed, as well as methods for their detection and their association with health disturbances in humans and wildlife. The etiology of several of the human diseases associated with endocrine disruptors, e.g. breast and prostate cancer, decreased fertility and malformations, is still poorly understood, and the current state of knowledge is presented. Since hormonally active agents appear to have the potential of both adverse and beneficial effects, the evidence of health benefits associated with endocrine active compounds in humans is also presented. Basic chapters on the mode of action of EACs and on the etiology of the associated diseases facilitate the understanding of this complex subject for non-medical readers.

Environmental Chemistry is a relatively young science. Interest in this subject, however, is growing very rapidly and, although no agreement has been reached as yet about the exact content and limits of this interdisciplinary discipline, there appears to be increasing interest in seeing environmental topics which are based on chemistry embodied in this subject. One of the first objectives of Environmental Chemistry must be the study of the environment and of natural chemical processes which occur in the environment. A major purpose of this series on Environmental Chemistry, therefore, is to present a reasonably uniform view of various aspects of the chemistry of the environment and chemical reactions occurring in the environment. The industrial activities of man have given a new dimension to Environmental Chemistry. We have now synthesized and described over five million chemical compounds and chemical industry produces about hundred and fifty million tons of synthetic chemicals annually. We ship billions of tons of oil per year and through mining operations and other geophysical modifications, large quantities of inorganic and organic materials are released from their natural deposits. Cities and metropolitan areas of up to 15 million inhabitants produce large quantities of waste in relatively small and confined areas. Much of the chemical products and waste products of modern society are released into the environment either during production, storage, transport, use or ultimate disposal. These released materials participate in natural cycles and reactions and frequently lead to interference and disturbance of natural systems.

As yet, flow cytometry is not used so widely in microbiology as in some other disciplines. This volume presents contributions flow cytometry to study a from research microbiologists who use diverse set of problems. It illustrates the power of the technique, and may persuade others of its usefulness. Most of the con tributors gathered in Cardiff on 23 October 1991, at a meeting organized for the Royal Microscopical Society by Dr. Richard Allman, but the content of their chapters is not limited by the discourse of that meeting, and for balance other experts were invited to write for this book. Flow Cytometry in Microbiology thus represents the first collection of articles specifically devoted to the applications of a technique which promises so much to those investigating the microbial world. Cardiff, 1992 David Lloyd Contents List of Contributors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ix 1 Flow Cytometry: A Technique Waiting for Microbiologists David Lloyd . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 2 The Physical and Biological Basis for Flow Cytometry of Escherichia coli Erik Boye and Harald B. Steen . . . . . . . . . . . . . . . . . . . . . . 11 3 Flow Cytometric Analysis of Heterogeneous Bacterial Populations Richard Allman, Richard Manchee and David Lloyd. . . . 27 4 On the Determination of the Size of Microbial Cells Using Flow Cytometry Hazel M. Davey, Chris L. Davey and Douglas B. Kell . . 49 5 Uses of Membrane Potential Sensitive Dyes with Bacteria David Mason, Richard Allman and David Lloyd . . . . . . .

Key Features Comprehensive coverage of all aspects of work-related asthma, including historical aspects, epidemiology and risk factors, mechanisms and genetics, other types of work-related asthma conditions and variants, hypersensitivity pneumonitis, occupational urticaria and dermatitis Assessment of the worker and workplace along with management of the worker, prevention and medicolegal aspects Of interest not only to pulmonologists, but also for industrial hygienists, researchers, lawyers and other health professionals in the field of work-related conditions Detailed information about specific agents, including a variety of high- and low-molecular weight agents

The factors affecting water quality are many: The increasing buying power and health concerns of the world population contribute to the creation of new products whose production and disposal lead to the release of chemicals harmful to the environment; the ever-growing world population requires a steady food supply, which increases the pressure to use even more chemicals to control various crop pests; and due to climate change, head waters, rivers, and oceans are becoming increasingly warmer, acidic, and eutrophic as the result of carbod dioxide overload. Using specific examples, Water Quality and Resource Management will address the many challenges of providing clean water to the growing world population. It will also discuss the new technologies that are being developed, for example, to treat and reuse waste waters, and the innovative monitoring approaches that help scientists to assess water quality risks. Such risk assessments are urgently needed to help draft legislations and allow enforcement to ensure accessability to quality water for all. The structure of the book will be the following: Each chapter will provide information about a specific water environment and the challenges it faces. This will be followed by discussion of the pollution effects and actions taken to redress the situation. Finally, future trends will be discussed.

Many international experts collaborated in creating this groundbreaking work, a principal-coding system, and in developing reference films and imaging parameters for the International Classification of HRCT for Occupational and Environmental Respiratory Diseases. The book is an authoritative guide to the recognition of dust diseases of the lung, using radiological imaging techniques, with special emphasis on high-resolution computerized tomography (CT). The classification is a powerful, essential tool for recording patient data on CT in a globally standardized semiquantitative way. The system is also applicable to surveillance and screening for occupational and environmental respiratory diseases. The book is a valuable resource not only for radiologists but for all who work in occupational medicine and public health.

Modern drugs are invented according to medical needs, making use of the latest innovations in technology. They are sophisticated, efficacious, and costly, but are they effective? Are they superior to existing - and cheaper - alternatives, and is this superiority reflected in increased cost-effectiveness? Are they socially more beneficial? These questions, and those related to the intriguing search for better quality of life, are addressed in this book by experts from the fields of medicine, epidemiology, economics, sociology and the pharmaceutical industry. The book describes the environmental situation in the United States and Europe in which pharmaceutical development takes place; it also explores the grounds for agreement as well as disagreement between the social and the economic evaluations of progress. It tackles the problem of outcome measurements, patients' behavior, quality of life, and individual value judgments and describes methodological boundaries in the socioeconomic evaluation of drugs.

Presented here is an account of industrial and general air pollution problems in view of air quality management, community and industrial health aspects, emission inventorying, emission and air quality measurement techniques, dispersion phenomena and control technologies. Moreover, several case studies from automotive and manufacturing processes as well as some country reports are presented. Finally, the global warming problem (greenhouse effect), atmospheric carbon dioxide build-up and radiation hazards involved in the atmosphere are discussed.

This volume throws light on the Sick Building Syndrome in Libraries and other public buildings, and the extent to which it is influenced by the internal environment of libraries. One of the signs of this disease is that the person suffers from a set of symptoms closely related to his/her presence in the building, without the identification of any clear causes, and his/her relief of these symptoms when he/she are out of the building. Hence, the book sheds on the extent to which the interior environment impacts upon the health of the people, and the extent to which this is reflected in their performance. The book can be used for teaching, research, and professional reference. It concludes with the recommendation that is essential to observe environmental dimensions when designing library and public buildings, taking into consideration the expected impact of SBS in library and public buildings on people. The significance of the book derives from the fact that it is the first of its kind to examine the issue of the interior environment and SBS of library and public building worldwide.

Filarial nematodes constitute and important group of human pathogens in tropical regions of the world. Diseases associated with these worms are generally separated into two categories: filariasis, caused by infections of lymphatic dwelling parasites and onchocerciasis, or river blindness, caused by infections of Onchocerca volvulus. Other filariae specifically infect humans and it is likely that zoonotic filarial infections may alter the outcome of infections with human parasites. The chapters in this book will cover concepts that, in most instances, overlap all of these parasites as well as focus on new and emerging ideas. The Filaria, volume five of World Class Parasites, is written for researchers, students and scholars who enjoy reading research that has a major impact on human health, or agricultural productivity, and against which we have no satisfactory defense. It is intended to supplement more formal texts that cover taxonomy, life cycles, morphology, vector distribution, symptoms and treatment. It integrates vector, pathogen and host biology and celebrates the diversity of approach that comprises modern parasitological research.

An important purpose of The Handbook of Environmental Chemistry is to aid the understanding of distribution and chemical reaction processes which occur in the environment. It is designed to serve as an important source for environmental scientists and decision-makers in industry, governmental and regulatory bodies. "Volume 3, Part E" of this series is dedicated to organometallic compounds, aluminium and to chemicals used in the rubber industry.

Over the last few decades, there have been dramatic improvements in the understanding and research of environmental design. Numerous methods have been developed to enhance architectural design in order for it to be more energy efficient, sustainable and health enhancing.

This book presents several theories and techniques that can be used to improve how buildings are engineered and designed in order to utilize more sustainable construction methods while promoting the health of the building's occupants.

Contributions to the study of environmental design have come from a diversity of fields including applied mathematics, optimization, computer science, medical research, psychology, management science, architecture, and engineering. The techniques developed in these areas of research can be used to increase building performance, occupant satisfaction, productivity, and well being, and reducing the incidence of health conditions and chronic diseases related to the use of a designed space.

This book provides architectural practitioners, civil engineers as well as other interdisciplinary researchers with the techniques needed to design, implement, and test for sustainability and health promotion in new or existing structures.

This volume written by 25 experts from industry and research provides a thorough overview of commerically important and environmentally mobile organosilicon materials. It outlines the structure, properties and applications of the four most significant material classes, and summarizes their environmental entry, transport, fate and impact. Detection and analytical methods are discussed both in the context of environmental assay and ecotoxicity testing along with some of the challenges. Measurement/estimation techniques and data available for several eco-pertinent properties of selected organosilicon compounds are summarized and limitations of the estimation and expertimental methods discussed. The environmental laws/regulations/trends in the U.S., Europe and Japan are discussed, along with their relevance to organosilicon materials. The book concludes with a broad overview of the major markets and global silicone producers, reviewing the industry's stewardship initiatives, relevant HES (health, environmental and safety) organizations and global cooperation.

Structure-Function Relationships of Human Pathogenic Viruses provides information on the mechanisms by which viruses enter the cell, replicate, package their DNA into capsids and mature into new virions. The relation between structural features and the pathogenicity and oncogenicity of some of the most relevant human viral pathogens are demonstrated and the acquisition of defense mechanisms through virus-host interactions are presented. In contrast to textbooks, this volume combines timely research data to provide a holistic view of viral pathogenesis. Furthermore Structure-Function Relationships of Human Pathogenic Viruses illustrates in a single volume the fundamental processes involved in viral life cycles using up-to-date information from research laboratories around the world. Knowledge of these processes is crucial to develop rationales for the design of future drugs. The timeliness of the data and the comprehensive yet concise approach this book takes in order to present the world of viral pathogens should make it a frontrunner in higher education and R&D.

Recently, there has been interest by regulators, the public and the manufacturers of wireless devices in the issues relating to the safety of radio frequency (RF) energy. These issues require an understanding of the scientific underpinnings of both physics of RF energy and cellular biology. This book is designed to provide precisely such cross-functional expertise. The editors of this book intend to provide a reliable source for a sound scientific understanding of the issues and to stimulate future scientific advances in this area. Therefore, the audience for this book includes such diverse groups as scientists, governmental policy-makers and regulatory bodies, representatives of industry and the public at large.

A there it is! guide to insects of medical and public health concern, mainly in the tropics. Each chapter covers identification, life cycle and habits of the causative stage and its medical/public health significance.

Skin diseases caused by aquatic organisms are continually on the increase owing to the great number of people who now converge on the hydrosphere for holidays, sports and professional activities. Aquatic skin diseases are no longer only a seasonal affliction but can be observed at any period, thanks to the tourist boom promoting aquatic holidaymaking throughout the year. This book aims to contribute to the knowledge of some aquatic animals that have only developed a poisonous apparatus to protect themselves and adapt to their environment, as well as of the various clinical pictures induced by different pathogenic mechanisms. Besides the afflictions caused by biotoxins, skin reactions to microscopic organisms present in seawater, freshwater, swimming pools and aquariums are described, together with some non-biotic forms induced by direct contact with salt and freshwater. A better knowledge of the aquatic environment may help people to enjoy this enthralling habitat at lesser risk.

Leishmania parasites cause a diverse group of diseases endemic to many tropical and subtropical regions of the world. This volume seeks to bring together recent research on cell and molecular biology of Leishmania with chapters on the host response to infection, the current epidemiology of leishmaniasis, explanations of the many different species, vector control, and strategies for vaccine development and drug treatment. Leishmania, volume four of World Class Parasites, is written for researchers, students and scholars who enjoy reading research that has a major impact on human health, or agricultural productivity, and against which we have no satisfactory defense. It is intended to supplement more formal texts that cover taxonomy, life cycles, morphology, vector distribution, symptoms and treatment. It integrates vector, pathogen and host biology and celebrates the diversity of approach that comprises modern parasitological research.